PLEASE NOTE: All abstracts listed below are openly available, however to view the PDFs requires a username and password. To gain access, please contact Josephina C. Lee.

1. J. H. Shapiro and N. C. Wong, "An ultrabright narrowband source of polarization-entangled photon pairs," J. Opt. B.: Quantum. and Semiclass. Opt. 2, L1-L4 (2000).
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2. J. E. Sharping, M. Fiorentino, and P. Kumar, “Observations of twin-beams type quantum correlation in optical fiber,” Opt. Lett. 26, 367-369 (2001).
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3. J. E. Sharping, M. Fiorentino, A. Coker, P. Kumar, and R. S. Windeler, “Four-wave mixing in microstructure fiber,” Opt. Lett. 26, 1048-1050 (2001).
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4. M. Fiorentino, J. E. Sharping, P. Kumar, M. Vasiliev, and D. Levandovsky, “Soliton squeezing in a Mach-Zehnder fiber interferometer,” Phys. Rev. A 64, 031801(R) (2001).
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5. M. Raginsky and P. Kumar, “Generation and manipulation of squeezed states of light in optical networks for quantum communication and computation,” J. Opt. B: Quantum and Semiclass. Opt. 3, L1-L4 (2001).
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6. V. Giovannetti, S. Lloyd, and L. Maccone, “Quantum-enhanced positioning and clock synchronization,” Nature 412, 417-419 (2001).
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7. V. Giovannetti, S. Lloyd, L. Maccone, and F. N. C. Wong, “Clock synchronization with dispersion cancellation,” Phys. Rev. Lett. 87, 117902 (2001).
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8. S. Lloyd, M. S. Shahriar, J. H. Shapiro, and P. R. Hemmer, “Long distance, unconditional teleportation of atomic states via complete Bell state measurements,” Phys. Rev. Lett. 87, 167903 (2001).
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9. M. Raginsky, “A fidelity measure for quantum channels,” Phys. Lett., A 290, 11-18 (2001).
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10. G. M. D'Ariano, P. L. Presti, and M. G. A. Paris, “Using entanglement improves precision in quantum measurements,” Phys. Rev. Lett. 87, 270404 (2001).
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11. V. Giovannetti, S. Lloyd, and L. Maccone, "Positioning and clock synchronization through entanglement," Phys. Rev. A, 65, 022309 (2001).
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12. J. H. Shapiro, “ Long-distance high-fidelity teleportation using singlet states ,” in Quantum Communication, Measurement, and Computing 3 , O. Hirota and P. Tombesi, eds., (Kluwer, New York, 2001).
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13. H. P. Yuen, “ Anonymous key quantum cryptography and unconditionally secure quantum bit commitment, ” in Quantum Communication, Measurement, and Computing 3 , O. Hirota and P. Tombesi, eds., ( Kluwer , New York , 2001).
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14. C. E. Kuklewicz, E. Keskiner, F. N. C. Wong, and J. H. Shapiro, “ A high-flux entanglement source based on a doubly-resonant optical parametric amplifier ,” in Proc. Seventh International Conference on Squeezed States and Uncertainty Relations , Boston, June 2001.
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15. J. H. Shapiro, “ Architectures for long-distance quantum communication ,” in Proc. Seventh International Conference on Squeezed States and Uncertainty Relations, Boston, June 2001.
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16. M. Fiorentino, J. E. Sharping, P. Kumar, A. Porzio, and R. S. Windeler, “Soliton squeezing in microstructure fiber,” Opt. Lett. 27, 649-651 (2002).
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17. J. E. Sharping, M. Fiorentino, P. Kumar, and R. S. Windeler, “All-optical switching based on cross-phase modulation in microstructure fiber,” IEEE Photon.Technol. Lett. 14, 77-79 (2002).
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18. A. Lvovsky and J. H. Shapiro, “Nonclassical character of statistical mixtures of the single-photon and vacuum optical states,” Phys. Rev. A 65, 033830 (2002).
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19. M. Raginsky, “Strictly contractive quantum channels and physically realizable quantum computers,” Phys. Rev. A 65, 032306 (2002).
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20. M. Ozawa, “Position measuring interactions and the Heisenberg uncertainty principle,” Phys. Lett. A 299, 1-7 (2002).
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21. V. Giovannetti, L. Maccone, J. H. Shapiro, and F. N. C. Wong, "Generating entangled two-photon states with coincident frequencies," Phys. Rev. Lett. 88, 183602 (2002).
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22. C. E. Kuklewicz, E. Keskiner, F. N. C. Wong, and J. H. Shapiro, "A high-flux entanglement source based on a doubly-resonant optical parametric amplifier," J. Opt. B: Quantum and Semiclass. Opt. 4, S162-S168 (2002).
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23. J. H. Shapiro, "Architectures for long-distance quantum teleportation," New J. Phys. 4, 47.1 - 47.18 (2002).
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24. M. Fiorentino, J. E. Sharping, P. Kumar, and A. Porzio, "Amplitude squeezing in a Mach-Zehnder interferometer: numerial analysis of experiments with microstructure fiber," Opt. Express 10, 128-138 (2002).
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25. M. Raginsky, "Almost any quantum spin system with short-range interactions can support toric codes," Phys. Lett. A 294, 153-157 (2002).
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26. M. Ozawa, "Conservative quantum computing," Phys. Rev. Lett. 89, 057902 (2002).
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27. M. Ozawa, "Conservation laws, uncertainty relations, and quantum limits of measurements," Phys. Rev. Lett. 88, 050402 (2002).
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28. A. V. Turukhin, V.S. Sudarshanam, M.S. Shahriar, J.A. Musser, B.S. Ham, and P.R. Hemmer, "Observation of ultraslow and stored light pulses in a solid," Phys. Rev. Lett. 88, 023602 (2002).
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29. V. Giovannetti, S. Lloyd, L. Maccone, and M.S. Shahriar, "Limits to clock synchronization induced by completely dephasing communication channels," Phys. Rev. A 65, 062319 (2002).
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30. E. J. Mason, M. A. Albota, F. König, and F. N. C. Wong, “Efficient generation of tunable photon pairs at 0.8 and 1.6 µm,” Opt. Lett. 27 , 2115 (2002).
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31. J.H. Shapiro, J. Aung, and B.J. Yen, "Quantum error models and error mitigation for long-distance teleportation architectures," in Proceedings of the Feynman Festival (2002), quant-ph/0211086.
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32. P. Kumar, M. Fiorentino, P. L. Voss, and J.E. Sharping, "All-fiber photon-pair source for quantum communications," IEEE Photon. Technol. Lett. 14, 983-985 (2002).
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33. J. Sharping, M. Fiorentino, P. Kumar, and R.S. Windeler, "An optical parametric oscillator based on four-wave mixing in microstructure fiber," Opt. Lett. 27,1675-1677 (2002).
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34. V. Giovannetti, S. Lloyd, and L. Maccone, "Quantum cryptographic ranging", J. Opt. B: Quantum Semiclass. Opt. 4, S413, (2002).
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35. V. Giovannetti, S. Lloyd, L. Maccone, and F. N. C. Wong, "Clock synchronization and dispersion", J. Opt. B: Quantum Semiclass. Opt. 4, S415, (2002).
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36. V. Giovannetti, L. Maccone, J. Shapiro, and F.N.C. Wong, "Extended phase-matching conditions for improved entanglement generation'', Phys. Rev. A 66, 043813 (2002).
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37. J.A. Morzinski, P.S. Bhatia, and M.S. Shahriar, “Frequency stabilization of an extended cavity semiconductor diode laser for chirp cooling”, Rev. Scient. Instrum. vol. 73, pp. 3449-3453 (2002).
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38. J.H. Shapiro, "Quantum Gaussian noise," Proc. SPIE, vol. 5111, pp. 382-395 (2003).
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39. B.J. Yen and J.H. Shapiro, "Error models and error mitigation for long-distance, high-fidelity quantum secret sharing," Proc. SPIE, vol. 5111, pp. 104-117 (2003).
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40. J.H. Shapiro, "Generating quantum interference and polarization entanglement with optical parametric amplifiers," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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41. E.J. Mason, M.A. Albota, F. Koenig, and F.N.C. Wong, "A frequency-nondegenerate entanglement source using periodically-poled lithium niobate," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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42. S. Lloyd, "Entanglement and channel capacity," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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43. V. Giovannetti, S. Lloyd, and L. Maccone, “The role of entanglement in dynamical evolution'', Europhys. Lett. 62 , 615 (2003).
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44. V. Giovannetti, L. Maccone, J.H. Shapiro, and   F.N.C. Wong, “Maximal entanglement generation via pulsed parametric downconversion'' in Proceedings of the Sixth International Conference on in Quantum Communication, Measurement, and Computing , J.H. Shapiro and O. Hirota, Eds., (Rinton Press, New Jersey, 2003).
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45. H.P. Yuen, "Why there is no impossibility theorem on secure quantum bit commitment," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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46. M. Raginsky, "Entropy-energy balance in noisy quantum computers," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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47. M.S. Shahriar and P. Pradhan, "Fundamental limitation on qubit operations due to the Bloch-Siegert oscillation," in Proceedings of the Sixth International Conference on Quantum Communication, Measurement and Computing , J.H. Shapiro and O. Hirota, eds. (Rinton Press, Princeton, 2003).
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48. V. Giovannetti, S. Lloyd, and L. Maccone, “Quantum limits to dynamical evolution'', Phys. Rev. A 67 , 052109 (2003).
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49. V. Giovannetti, S. Lloyd, and L. Maccone, ”The quantum speed limit'', Proc. SPIE, vol. 5111, pp. 1-6 (2003).
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50. V. Giovannetti, S. Lloyd, L. Maccone, and P. Shor, “Entanglement assisted capacity of the broadband lossy channel'', Phys. Rev. Lett. 91 , 047901 (2003).
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51. V. Giovannetti, S. Mancini , D. Vitali, and P. Tombesi, “Characterizing the entanglement of bipartite quantum systems'', Phys. Rev. A   67 , 022320 (2003).
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52. G. M. D'Ariano, L. Maccone, M. Paini, “Spin Tomography'', J. Opt. B: Quantum Semiclass. Opt.   5 , 77 (2003).
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53. S. Lloyd, “Power of Entanglement in Quantum Communication” in Phys. Rev. Lett. 90, 167902 (2003).
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54. G. M. D'Ariano and M. F. Sacchi, "Entanglement at distance: qubits versus continuous variables," Progress of Phys. 51, 469 (2003.)
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55. B.J. Yen and J.H. Shapiro, "Error models for long-distance qubit teleportation," IEEE J. Special Topics in Quantum Electron 9, 1483-1494 (2003.)
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56. M.S.   Shahriar, P. Pradhan, and J. Morzinski, " Driver phase correlated fluctuations in the rotation of a strongly driven quantum bit,"   Phys. Rev. A. 69, 032308 (2004.)
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57. M. S. Shahriar, P. Pradhan, and J. Morzinski, "Determination of the phase of an electromagnetic field via incoherent detection of fluorescence," submitted to Phys. Rev. Lett.; quant-ph / 0205120.
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58. M. S. Shahriar, "Frequency Locking Via Phase Mapping Of Remote Clocks Using Quantum Entanglement,"  submitted to Phys. Rev. Lett.; quant-ph/0209064.
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59. C.E. Kuklewicz, M. Fiorentino, G. Messin, F.N.C. Wong, and J.H. Shapiro, "High-flux source of polarization-entangled photons from a periodically-poled KTiOPO4 parametric downconverter," submitted to Phys. Rev. A, quant-ph/030592.
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60. M. Fiorentino, G. Messin, C.E. Kuklewicz, F.N.C. Wong, and J.H. Shapiro, "Generation of ultrabright tunable polarization entanglement without spatial, spectral, or temporal constraints," Phys. Rev. A, 69, 041801(R), 2004.
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61. G.C. Cardoso, P.   Pradhan, and M.S. Shahriar, " In-situ observation of the phase of a microwave field using single-atom nonlinear optics ," submitted to Nature.
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62. M.S.   Shahriar, P. Pradhan, V. Gopal, and G.S. Pati, "Wavelength teleportation via distant quantum entanglement," Submitted to Phys. Rev. Lett . quant-ph/0309085.
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63. P. Pradhan,   G. C. Cardoso    and    M.S. Shahriar " Effects of   the bloch-siegert oscillation on the precision of qubit rotations: direct   two-level   vs. off-resonant raman excitation,"   to be submitted to Phys Rev A .
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64. H. P. Yuen, “Unconditionally secure quantum bit commitment is possible,” quant-ph / 0006109.
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65. H. P. Yuen, "Anonymous key quantum cryptography and unconditionally secure quantum bit commitment," quant-ph / 0009113.
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66. H. P. Yuen, “Unconditional security in quantum bit commitment,” quant-ph / 0106001.
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67. H. P. Yuen, " How unconditionally secure quantum bit commitment is possible," quant-ph / 0109055.
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68. H. P., Yuen, "Quantum bit commitment and unconditional security," quant-ph / 0207089.
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69. H. P., Yuen, “How to build unconditionally secure quantum bit commitment protocols”, quant-ph / 0305144.
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70. H. P., Yuen, “Another simple unconditionally secure quantum bit commitment protocol -- the use of bit-value dependent evidence state space”, quant-ph / 0305143.
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71. H. P., Yuen, “A simple unconditionally secure quantum bit commitment protocol via quantum teleportation”, quant-ph / 0305142.
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72. V. Giovannetti and S. Lloyd, “Additivity properties of a Gaussian Channel'', Phys. Rev. A 69, 062307 (2004).
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73. V. Giovannetti, “Separability conditions from entropic uncertainty relations'', Phys. Rev. A 70, 012102 (2004).
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74. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J. H. Shapiro, and B. J. Yen, “Minimum Bosonic Channels Output Entropies'', in Proceedings of the 7th International Conference on Quantum Communication, Measurement, and Computing, AIP Conference Proceedings Vol. 734 (American Institute of Physics, Melville, New York, 2004).
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75. P. Kumar, M. Fiorentino, P. L. Voss, and J.E. Sharping, “All-Fiber Photon-Pair Source for Practical Quantum Communications,” Optics and Photonics News, Vol. 13, No. 12, December 2002, p. 52.
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76. J. E. Sharping, M. Fiorentino, P. Kumar, and R.S. Windeler, “Use of Microstructured Fibers in Optical Amplifiers, Wavelength Shifters, and All-Optical Switches,” Optics and Photonics News, Vol. 13, No. 12, December 2002, p. 28.
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77. P. Kumar, X. Li, M. Fiorentino, P. L. Voss, J. E. Sharping, and G. A. Barbosa, “Fiber-Optic Sources of Quantum Entanglement,” in Proceedings of the Sixth International Conference on Quantum Communication, Measurement, and Computing, J. H. Shapiro and O. Hirota, Eds., (Rinton Press, New Jersey, 2003).
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78. P. L. Voss, Kahraman G. Köprülü, and P. Kumar, “CW theory for optical-fiber photon-pair generation,” Proc. SPIE 5248 35-41 (2003).
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79. P. L. Voss and P. Kumar, “Raman-noise induced noise-figure limit for c(3) parametric amplifiers,” Optics Letters 29, 445-447 (2004).
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80. A. Heifetz, A. Agarwal, G. C. Cardoso, V. Gopal, P. Kumar, and M. S. Shahriar, “Super efficient absorption filter for quantum memory using atomic ensembles in a vapor,” Optics Communications 232, 289-293 (2004).
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81. P. L. Voss, K. G. Köprülü, S.-K. Choi, S. Dugan, and P. Kumar, “14-MHz rate photon counting with room temperature InGaAs/InP avalanche photodiodes,” Journal of Modern Optics 51, 1369-1379 (2004).
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82. J. E. Sharping, J. Chen, X. Li, and P. Kumar, “Quantum-correlated twin photons from microstructure fiber,” Optics Express 12, 3086-3094 (2004).
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83. P. L. Voss and P. Kumar, “Raman-effect induced noise limits on c(3) parametric amplifiers and wavelength converters,” J. Optics B: Quantum and Semiclassical Optics 6, S762-S770 (2004).
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84. X. Li, J. Chen, P. Voss, J. Sharping, and P. Kumar, “All-fiber photon-pair source for quantum communications: Improved generation of correlated photons,” Optics Express 12, 3737-3744 (2004).
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85. R. Tang, P. L. Voss, J. Lasri, P. Devgan, and P. Kumar, “Noise-figure limit of fiber optical parametric amplifiers and wavelength converters: Experimental investigation,” Optics Letters 29, 2372-2374 (2004).
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86. J. Chen, X. Li, P. L. Voss, and P. Kumar, “Telecom-band entanglement generation in standard fibers,” Proc. SPIE Vol. 5631, 51-59 (2004).
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87. J. Chen, X. Li, and P. Kumar, “Quantum theory for two-photon-state generation by means of four-wave mixing in optical fiber,” Proc. SPIE 5551, 121-128 (2004).
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88. J. E. Sharping and P. Kumar, “Nonlinear Optics in Photonic-Crystal Fibers,” invited review paper in Encyclopedia of Modern Optics, B. D. Guenther, D. G. Steel, and L. Bayvel, Eds., (Elsevier Academic Press, UK, December 2004), pp. 139-146.
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89. P. Kumar, “Practical Quantum Communication and Cryptography for WDM Optical Networks,” in Proceedings of the 7th International Conference on Quantum Communication, Measurement, and Computing, AIP Conference Proceedings Vol. 734 (American Institute of Physics, Melville, New York, 2004).
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90. X. Li, P. L. Voss, J. E. Sharping, and P. Kumar, “Optical-fiber source of polarization-entangled photons in the 1550 nm telecom band,” Physical Review Letters 94, 053601 (2005).
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91. X. Li, P. L. Voss, J. Chen, K. F. Lee, and P. Kumar, “Measurement of co- and cross-polarized Raman spectra in silica fiber for small detunings,” Optics Express, 13, 2236-2244 (2005).
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92. X. Li, P. L. Voss, J. Chen, J. E. Sharping, and P. Kumar, “Storage and long-distance distribution of telecom-band polarization entanglement generated in optical fiber,” to appear in Optics Letters.
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93. P. L. Voss, K. G. Köprülü, and P. Kumar, “Raman-noise induced quantum limits for (3) nondegenerate phase-sensitive amplification and quadrature squeezing,” submitted to the Journal of the Optical Society of America B., e-print quant-ph/0410214.
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94. J. Chen, X. Li, and P. Kumar, “A theory of two-photon-state generation via four-wave mixing in optical fibers,” submitted to Physical Review A.
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95. V. Giovannetti, S. Lloyd, L. Maccone, and S. M. Shahriar, “Limits to clock synchronization induced by completely dephasing communication channels'', Phys. Rev. A 65, 062319 (2002).
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96. V. Giovannetti, S. Lloyd, L. Maccone, and P. Shor, “Entanglement assisted capacity of the broadband lossy channel'', Phys. Rev. Lett. 91, 047901 (2003).
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97. V. Giovannetti, S. Lloyd, L. Maccone, and P. Shor, “Broadband channel capacities'', Phys. Rev. A 68, 062323 (2003).
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98. V. Giovannetti, S. Lloyd, and L. Maccone, “Quantum positioning system'', in Proceedings of the 8th Rochester Conference on Coherence and Quantum Optics, N. P. Bigelow, J. H. Eberly, C. R. Stroud, and I. A. Walmsley eds. (Kluwer Academic, New York, 2003).
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99. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, and J. H. Shapiro, “Minimum output entropy of bosonic channels: a conjecture'', Phys. Rev. A 70, 032315 (2004).
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100. V. Giovannetti, S. Lloyd, L. Maccone, J. H. Shapiro, and B. J. Yen, “Minimal Renyi and Wehrl entropies at the output of bosonic channels'', Phys. Rev. A 70, 022328 (2004).
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101. V. Giovannetti, S. Lloyd, and L. Maccone, “Capacity of nonlinear bosonic systems'', Phys. Rev. A 70, 012307 (2004).
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102. J. H. Shapiro, V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, and B. J. Yen, “Capacity of Bosonic Communications'', in Proceedings of the 7th International Conference on Quantum Communication, Measurement, and Computing, AIP Conference Proceedings Vol. 734 (American Institute of Physics, Melville, New York, 2004).
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103. V. Giovannetti, S. Lloyd, and L. Maccone, "The speed limit of quantum unitary evolution,” J. Opt. B: Quantum Semiclass. Opt. 6, S807 (2004) .
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104. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J. H. Shapiro, and H. P. Yuen, “Classical Capacity of the lossy bosonic channel: the exact solution'', Phys. Rev. Lett. 92, 027902 (2004).
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105. S. Lloyd, V. Giovannetti, and L. Maccone, “Physical limits to communication'', Phys. Rev. Lett. 93, 100501 (2004).
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106. V. Giovannetti, S. Lloyd, L. Maccone, and J. H. Shapiro, “Information rate of a waveguide'', Phys. Rev. A 69, 052310 (2004).
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107. V. Giovannetti, S. Lloyd, and L. Maccone, “Quantum-enhanced measurements: beating the standard quantum limit'', Science 306, 1330 (2004).
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108. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J. H. Shapiro, B. J. Yen, and H. P. Yuen, “Classical Capacity of Free-Space Optical Communication'', Quantum Information and Computation 4, 489 (2005).
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109. V. Giovannetti, S. Guha, S. Lloyd, L. Maccone, J. H. Shapiro, and B. J. Yen, “Minimum output entropy of a gaussian bosonic channel'' International Journal of Quantum Information 3, 153-158 (2005).
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110. M.S. Shahriar, M. Jheeta, Y. Tan, P. Pradhan, and A. Gangat, “Continuously Guided Atomic Interferometry Using a Single-Zone Optical Excitation: Theoretical Analysis,” Optics Communications 243, 183-201 (2004).
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111. M.S. Shahriar, Y. Tan, M. Jheeta, J. Morzinski, P.R. Hemmer, and P. Pradhan, “Demonstration of a Continuously Guided Atomic Interferometer Using a Single-Zone Optical Excitation,” to appear in J. Opt. Soc. Am. B.
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112. A. Gangat, P. Pradhan, G. Pati, and M.S. Shahriar “Two-dimensional Nanolithography Using Atom Interferometry,” Phys. Rev. A 71, 043606 (2005).
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113. G. Cardoso, P. Pradhan, J. Morzinski, and M.S. Shahriar, “In-situ detection of temporal and initial phase of the second harmonic of a microwave field via incoherent fluorescence,” to appear in Phys. Rev. A.
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114. P. Pradhan, G. Cardoso, J. Morzinski, and M.S. Shahriar , “Suppression of the Bloch-Siegert Oscillation Induced Error in Qubit Rotations via the Use of Off-Resonance Raman Excitation,” submitted to Optics Communications.
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115. G.S. Pati, J. Vornehm, V. Gopal, G. Cardoso, P. Kumar, and M.S. Shahriar, “Multi-Spectral Characteristics of Raman Scattering under Gain Condition for Collective Excitation in Rubidium Atomic Vapor,” submitted to Physical Review A.
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116. M.S. Shahriar, G.S. Pati, R. Tripathi, V. Gopal, and K. Salit, “Enhancement of interferometric precision using fast light,” submitted to Phys. Rev. Lett.
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117. M.S. Shahriar, G.S. Pati, R. Tripathi, V. Gopal, and M. Messal, “Ultrahigh Precision Absolute and Relative Rotation Sensing using Slow and Fast Light,” submitted to Phys. Rev. Lett.
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118. M.S. Shahriar, P. Pradhan, V. Gopal, J. Morzinski, G. Cardoso, and G.S. Pati, “Wavelength Teleportation via Distant Quantum Entanglement Using the Bloch-Siegert Oscillation,” submitted to Optics Communications.
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119. B. J. Yen and J. H. Shapiro “Two problems in multiple access quantum communication,” in Proceedings of the 7th International Conference on Quantum Communication, Measurement, and Computing, AIP Conference Proceedings Vol. 734 (American Institute of Physics, Melville, New York, 2004).
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120. J. H. Shapiro, B. J. Yen, S. Guha, and B. I. Erkmen, “Classical communication in the presence of quantum Gaussian noise,” to appear in Proc. SPIE 5842 (2005).
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121. B. J. Yen and J. H. Shapiro, “Multiple-access Bosonic communications,” to appear in Proc. SPIE 5842 (2005).
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122. M. Razavi and J. H. Shapiro, “Long-distance quantum communication with neutral atoms,” to appear in Proc. SPIE 5842 (2005).
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123. J. H. Shapiro, S. Guha, and B. I. Erkmen, “Ultimate channel capacity of free-space optical communications,” submitted to J. Optical Networking.
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124. M.A. Albota and F.N.C. Wong, “Efficient single-photon counting at 1.55 µm by means of frequency upconversion,” Opt. Lett. 29, 1449-1451 (2004).
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125. M. Fiorentino and F.N.C. Wong, “Deterministic controlled-NOT gate for single-photon two-qubit quantum logic,” Phys. Rev. Lett. 93, 070502 (2004).
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126. V. Giovannetti, S. Lloyd, L. Maccone, J.H. Shapiro, and F.N.C. Wong, “Conveyor-belt clock synchronization,” Phys. Rev. A 70, 043808 (2004).
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127. P. Kumar, P. Kwiat, A. Migdall, S.W. Nam, J. Vuckovic, and F.N.C. Wong, “Photonic technologies for quantum information processing,” Quantum Inform. Process. 3, 215-231 (2004).
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128. S. Lloyd, J.H. Shapiro, F.N.C. Wong, P. Kumar, S.M. Shahriar, and H.P. Yuen, “Infrastructure for the quantum internet,“ ASM SIGCOMM Comp. Commun. Rev. 34, 9-20 (2004).
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129. M. Fiorentino, C.E. Kuklewicz, and F.N.C. Wong, “Source of polarization entanglement in a single periodically poled KTiOPO4 crystal with overlapping emission cones,“ Opt. Express 13, 127-135 (2005).
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130. F. König, E.J. Mason, F.N.C. Wong, and M.A. Albota, “Efficient and spectrally bright source of polarization-entangled photons,“ Phys. Rev. A 71, 033805 (2005).
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131. M. Fiorentino, M., T. Kim, and F.N.C. Wong, “Single-photon two-qubit SWAP gate for entanglement manipulation,“ submitted to Phys. Rev. A and quant-ph/0407136.
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132. M. Fiorentino, T. Kim, and F.N.C. Wong, “Single-photon two-qubit logic gates,” in Proceedings of the Seventh International Conference on Quantum Communication, Measurement and Computing, AIP Conference Proceedings Vol. 734 (American Institute of Physics, Melville, New York, 2004).
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133. T. Kim, M. Fiorentino, P. Gorelik, and F.N.C. Wong, “Low-cost nanosecond electronic coincidence detector,” arXiv: physics/0501141.
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134. H. P. Yuen, “Another simple unconditionally secure quantum bit commitment protocol — beating entanglement with entanglement,” quant-ph/0305143.
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135. H. P. Yuen, “How to build unconditionally secure quantum bit commitment protocols,” quant-ph/0305144.
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